P
US7583017B2ExpiredUtilityPatentIndex 40

Electron emission display

Assignee: SAMSUNG SDI CO LTDPriority: Oct 25, 2005Filed: Oct 24, 2006Granted: Sep 1, 2009
Est. expiryOct 25, 2025(expired)· nominal 20-yr term from priority
Inventors:SEON HYEONG-RAE
H01J 31/127H01J 29/925
40
PatentIndex Score
0
Cited by
4
References
16
Claims

Abstract

An electron emission display includes a first substrate and a second substrate facing the first substrate. An electron emission unit is arranged on the first substrate. A light emission unit is arranged on the second substrate, the light emission unit having an anode electrode for accelerating an electron beam emitted from the electron emission unit. A sealing member is adapted to seal an exhaust hole of the first substrate. A voltage supply unit is adapted to apply an anode voltage to the anode electrode via the sealing member.

Claims

exact text as granted — not AI-modified
1. An electron emission display, comprising:
 a first substrate; 
 a second substrate facing the first substrate; 
 an electron emission unit arranged on the first substrate; 
 a light emission unit arranged on the second substrate, the light emission unit having an anode electrode for accelerating an electron beam emitted from the electron emission unit; 
 a sealing member for sealing an exhaust hole of the first substrate; and 
 a voltage supply unit adapted to apply an anode voltage to the anode electrode via the sealing member, 
 wherein the voltage supply unit comprises: 
 a connecting member for electrically connecting the sealing member to the anode electrode; and 
 a supply member connected to the sealing member to supply the anode voltage to the sealing member, 
 wherein the connecting member is connected with the anode electrode by a first electrically conductive adhesive layer, and wherein the connecting member is connected with the sealing member by a second electrically conductive adhesive layer. 
 
   
   
     2. The electron emission display of  claim 1 , wherein the connecting member comprises a lead line. 
   
   
     3. The electron emission display of  claim 1 , wherein the connecting member comprises an electrically conductive elastic body. 
   
   
     4. The electron emission display of  claim 3 , wherein the electrically conductive elastic body is a coil spring. 
   
   
     5. The electron emission display of  claim 3 , wherein the electrically conductive elastic body is a leaf spring having a bent centerline. 
   
   
     6. The electron emission display of  claim 1 , wherein the supply member of the voltage supply unit comprises a lead line connected with the sealing member and arranged on the first substrate. 
   
   
     7. An electron emission display, comprising:
 a first substrate; 
 a second substrate facing the first substrate; 
 an electron emission unit arranged on the first substrate; 
 a light emission unit arranged on the second substrate, the light emission unit having an anode electrode for accelerating an electron beam emitted from the electron emission unit; 
 a sealing member for sealing an exhaust hole of the first substrate; and 
 a voltage supply unit adapted to apply an anode voltage to the anode electrode via the sealing member, 
 wherein the voltage supply unit comprises: 
 a connecting member for electrically connecting the sealing member to the anode electrode; and 
 a supply member connected to the sealing member to supply the anode voltage to the sealing member, 
 wherein the supply member of the voltage supply unit comprises a lead line connected with the sealing member and arranged on the first substrate, and 
 wherein the lead line is connected with the sealing member by an electrically conductive adhesive layer. 
 
   
   
     8. The electron emission display of  claim 1 , wherein:
 the supply member of the voltage supply unit comprises a first lead line connected with the sealing member and arranged on the first substrate, and 
 the connecting member comprises a second lead line. 
 
   
   
     9. An electron emission display, comprising:
 a first substrate; 
 a second substrate facing the first substrate; 
 an electron emission unit arranged on the first substrate; 
 a light emission unit arranged on the second substrate, the light emission unit having an anode electrode for accelerating an electron beam emitted from the electron emission unit; 
 a sealing member for sealing an exhaust hole of the first substrate; and 
 a voltage supply unit adapted to apply an anode voltage to the anode electrode via the sealing member, 
 wherein the voltage supply unit comprises: 
 a connecting member for electrically connecting the sealing member to the anode electrode; and 
 a supply member connected to the sealing member to supply the anode voltage to the sealing member, 
 wherein: 
 the connecting member is connected with the anode electrode by a first electrically conductive adhesive layer, 
 the connecting member is connected with the sealing member by a second electrically conductive adhesive layer, 
 the supply member of the voltage supply unit comprises a lead line connected with the sealing member and arranged on the first substrate, and 
 the lead line is connected with the sealing member by a third electrically conductive adhesive layer. 
 
   
   
     10. The electron emission display of  claim 1 , wherein the sealing member comprises an electrically conductive material. 
   
   
     11. The electron emission display of  claim 10 , wherein the sealing member is formed of metal or a metal alloy. 
   
   
     12. The electron emission display of  claim 1 , wherein the sealing member is configured to have a hemispherical shape or a substantially flat shape. 
   
   
     13. The electron emission display of  claim 12 , wherein the sealing member is coupled to the first substrate by a frit deposited on a periphery of the sealing member. 
   
   
     14. The electron emission display of  claim 1 , wherein the electron emission unit comprises:
 an electron emission region; 
 a plurality of cathode electrodes; and 
 a plurality of gate electrodes arranged to cross the cathode electrodes, 
 wherein the cathode electrodes and the gate electrodes are insulated from each other and adapted to control the electron emission region, and 
 wherein the light emission unit comprises a plurality of phosphor layers and a black layer arranged between at least two of the phosphor layers. 
 
   
   
     15. The electron emission display of  claim 14 , wherein the electron emission region comprises a material selected from the group consisting of carbon nanotubes, graphite, graphite nanofibers, diamonds, diamond-like carbon, fullerene (C 60 ), silicon nanowires, and combinations thereof. 
   
   
     16. The electron emission display of  claim 1 , wherein the electron emission unit comprises FEA elements.

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